P
US7236308B2ExpiredUtilityPatentIndex 62

Zoom lens system, imaging device, and camera

Assignee: MATSUSHITA ELECRIC IND CO LTDPriority: Sep 21, 2004Filed: Oct 10, 2006Granted: Jun 26, 2007
Est. expirySep 21, 2024(expired)· nominal 20-yr term from priority
Inventors:YOSHITSUGU KEIKI
G02B 15/144113
62
PatentIndex Score
2
Cited by
33
References
13
Claims

Abstract

A zoom lens system, in order from the object side to the image side, comprises a first lens unit G 1 having positive optical power, a second lens unit G 2 having negative optical power, a third lens unit G 3 having positive optical power and a fourth lens unit G 4 having positive optical power. Magnification varying is performed by varying the distances between the lens units by moving the lens units along the optical axis. The third lens unit G 3 comprises at least two lens elements including a third lens unit object side lens element which is a positive lens element disposed on the most object side and whose high-curvature surface faces the object side and a third lens unit image side lens element which is a negative lens element disposed on the most image side and concave to the image side. The zoom lens system satisfies predetermined conditions, and in which the magnification variation ratio is approximately 5 to 6×, the overall lengths at the time of shooting and at the time of non-shooting are short and resolution is high.

Claims

exact text as granted — not AI-modified
1. A zoom lens system, in order from an object side to an image side, comprising:
 a first lens unit having positive optical power; 
 a second lens unit having negative optical power; 
 a third lens unit having positive optical power; and 
 a fourth lens unit having positive optical power, 
 wherein, 
 magnification variation is performed by varying distances along an optical axis between at least any two of the lens units, 
 during magnification varying from a wide-angle limit to a telephoto limit, the third lens unit moves to the object side, and the first and second lens units move with locus of a convex to the image side, and
   0< M   lwm   /M   lmt <0.32 
 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where M lwm  is an amount of movement of the first lens unit from the wide-angle limit to a middle focal length condition when a shooting distance is ∞, M lmt  is an amount of movement of the first lens unit from the middle focal length condition to the telephoto limit when the shooting distance is ∞, the middle focal length condition, f m= √(f w *f T ), f m  is defined by the focal length of the entire zoom lens system in the middle focal length condition, f w  is the focal length of an entire lens system at the wide-angle limit, and f t  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     2. The zoom lens system of  claim 1 , wherein the third lens unit comprises at least two lens elements including a third lens unit object side lens element which is a positive lens element disposed at a position closest to the object side and whose high-curvature surface faces the object side and a third lens unit image side lens element which is a negative lens element disposed at a position closest to the image side and concave in relation to the image side. 
   
   
     3. The zoom lens systems of  claim 1 , wherein the third lens unit, in order from the object side to the image side, comprises: a positive lens element whose high-curvature surface faces the object isde; a positive lens element; and a negative lens element concave to the image side. 
   
   
     4. The zoom lens system of  claim 1 , wherein the third lens unit, in order from the object side to the image side, comprises: a positive lens element whose high-curvature surface faces the object side; and a negative lens element concave to the image side. 
   
   
     5. The zoom lens system of  claim 1 , wherein the following condition is satisfied:
   5.0< f   G1   /f   W <8.0 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where f Gl  is a focal length of the first lens unit, f W  is the focal length of the entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     6. The zoom lens system of  claim 1 , wherein the following condition is satisfied:
   2.0< f   G4   /f   w <3.5 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where f G4  is a focal length of the fourth lens unit, f w  is the focal length of the entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     7. The zoom lens system of  claim 1 , wherein the following condition is satisfied:
   2.0< f   G3   /f   w <3.0 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where f G3  is a focal length of the third lens unit, f w  is the focal length of the entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     8. The zoom lens system of  claim 1 , wherein an image side surface of the most object side positive lens element of the third lens unit is a plane or a concave surface. 
   
   
     9. The zoom lens system of  claim 1 , wherein an image blur caused by a vibration of the zoom lens system is compensatable by moving the third lens unit in a direction perpendicular to an optical axis, and the following condition is satisfied:
   1.1<-(1- m   G2T ) m   G3T   m   G4T <2.5 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where m G2T  is a magnification of the second lens unit at the telephoto limit when a shooting distance is ∞, m G3T  is a magnification of the third lens unit at the telephoto limit when the shooting distance is ∞, m G4T  is a magnification of the fourth lens unit at the telephoto limit when the shooting distance is ∞, f w  is the focal length of an entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     10. The zoom lens system of  claim 1 , wherein the following condition is satisfied:
   1.5< m   G2T   /m   G2W <3.0 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where m G2T  is a magnification of the second lens unit at the telephoto limit when a shooting distance is ∞, m G2W  is a magnification of the second lens unit at the wide-angle limit when the shooting distance is ∞, f W  is the focal length of an entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     11. The zoom lens system of  claim 1 , wherein the following is satisfied:
   0.3<Δ m   G2 <0.7 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where Δm G2  is an absolute value of an amount of magnification variation of the second lens unit from the wide-angle limit to the telephoto limit when a shooting distance is ∞, f W  is the focal length of an entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     12. The zoom lens system of  claim 1 , wherein the following condition is satisfied:
   0.5<Δ m   G3 <1.8 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where Δm G3  is an absolute value of an amount of magnification variation of the third lens unit from the wide-angle limit to the telephoto limit when a shooting distance is ∞, f W  is the focal length of an entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit. 
 
   
   
     13. The zoom lens system of  claim 1 , wherein the following condition is satisfied:
   0.2<Δ m   G2   /Δm   G3 <1.2 
 
     with Z=f T /f w , where Z is the magnification variation ratio, and
 where Δm G2  is an absolute value of an amount of magnification variation of the second lens unit from the wide-angle limit to the telephoto limit when a shooting distance is ∞, Δm G3  is an absolute value of an amount of magnification variation of the third lens unit from the wide-angle limit to the telephoto limit when the shooting distance is ∞, f W  is the focal length of the entire lens system at the wide-angle limit, and f T  is the focal length of the entire lens system at the telephoto limit.

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